Radiotheranostic Agents Targeting Neuroblastoma: State-of-the-Art and Emerging Perspectives

Onco Pub Date : 2021-11-10 DOI:10.3390/onco1020011
L. Filippi, V. Frantellizzi, Marko Magdi Abdou Sidrak, Joana Gorica, Stefano Scippa, A. Chiaravalloti, O. Schillaci, O. Bagni, G. de Vincentis
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Abstract

Neuroblastoma (NB) represents the most common extracranial tumor of childhood. Prognosis is quite variable, ranging from spontaneous regression to aggressive behavior with wide metastatization, high mortality, and limited therapeutic options. Radiotheranostics combines a radiopharmaceutical pair in a unique approach, suitable both for diagnosis and therapy. For many years, metaiodobenzylguanidine (MIBG), labeled with 123I for imaging or 131I for therapy, has represented the main theranostic agent in NB, since up to 90% of NB incorporates the aforementioned radiopharmaceutical. In recent years, novel theranostic agents hold promise in moving the field of NB radiotheranostics forward. In particular, SarTATE, consisting of octreotate targeting somatostatin receptors, has been applied with encouraging results, with 64Cu-SARTATE being used for disease detection and with 67Cu-SARTATE being used for therapy. Furthermore, recent evidence has highlighted the potential of targeted alpha therapy (TAT) for treating cancer by virtue of alpha particles’ high ionizing density and high probability of killing cells along their track. On this path, 211At-astatobenzylguanidine (MABG) has been developed as a potential agent for TAT and is actually under evaluation in preclinical NB models. In this review, we performed a web-based and desktop literature research concerning radiotheranostic approaches in NB, covering both the radiopharmaceuticals already implemented in clinical practice (i.e.,123/1311-MIBG) and those still in a preliminary or preclinical phase.
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针对神经母细胞瘤的放射治疗药物:最新的和新兴的观点
神经母细胞瘤(NB)是儿童最常见的颅外肿瘤。预后变化很大,从自发消退到侵袭性行为,转移范围广,死亡率高,治疗选择有限。放射治疗学以一种独特的方法结合了一对放射药物,既适合诊断又适合治疗。多年来,用123I标记用于成像或用131I标记用于治疗的间碘苄基胍(MIBG)一直是NB的主要治疗剂,因为高达90%的NB含有上述放射性药物。近年来,新型治疗剂有望推动NB放射治疗学领域的发展。特别是,由奥曲酸靶向生长抑素受体组成的SarTATE已被应用,并取得了令人鼓舞的结果,64Cu SarTATE用于疾病检测,67Cu SarTATE用于治疗。此外,最近的证据突出了靶向α疗法(TAT)治疗癌症的潜力,因为α粒子的高电离密度和沿其轨迹杀死细胞的高概率。在这条道路上,211At astatobenyl胍(MABG)已被开发为TAT的潜在制剂,并且实际上正在临床前NB模型中进行评估。在这篇综述中,我们进行了一项关于NB放射治疗方法的网络和桌面文献研究,涵盖了已经在临床实践中实施的放射药物(即123/1311-MIBG)和仍处于初步或临床前阶段的放射药物。
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